Wall-Mounted Hook

ABSTRACT

An anchor assembly (A) for use with hollow panels, comprises a holding member, such as a hook ( 10 ), and an anchor ( 12 ) The anchor ( 12 ) is adapted to penetrate a hollow panel, such as a wall (W), and, once the anchor assembly (A) has been installed to the wall (W), the anchor ( 12 ) is firmly secured thereto while the hook ( 10 ), which is joined to the anchor ( 12 ), is located on a visible side (V) of the wall (W) The anchor ( 12 ) includes a first anchor portion ( 14 ) and a second vice ( 16 ) portion The anchor portion ( 14 ), when the anchor assembly (A) is installed to the wall (W), extends through the hole (O) defined in the wall (W) while the vice portion ( 16 ) is located behind the wall (W) An elbow portion ( 17 ) is provided on the anchor ( 12 ) between the anchor ( 14 ) and vice ( 16 ) portions for allowing the anchor ( 12 ) to be pivoted when being installed in the wall (W) from a first position where the vice portion ( 16 ) is inserted though the wall (W) to form the hole (O) therein and a second position where the vice portion ( 16 ) extends behind the wall (W) and tn abutment therewith and the anchor portion ( 14 ) is lodged in the hole (O).

CROSS REFERENCE TO RELATED APPLICATIONS

This Application claims priority on Canadian Patent Application No. 2,643,664 filed on Oct. 30, 2008 and on U.S. Provisional Patent Application No. 61/193,256 filed on Nov. 12, 2008, which are herein incorporated by reference.

FIELD OF THE INVENTION

The present invention relates to hangers for supporting objects on a wall and, more particularly, to a hook and anchor assembly for attachment to hollow walls, such as wallboards which typically comprise a relatively thick layer of gypsum sandwiched between paper layers.

BACKGROUND OF THE INVENTION

U.S. Pat. No. 3,219,302 issued to Smith on Nov. 23, 1965 teaches a hanger 10 of stiff yet flexible wire construction engaged through a wall 11. The curved portion 16 exerts pressure on the inside wall surface and pulls a leg portion 14 of the hanger against the front or inner surface of the wall and thus into firm or even locked relationship therewith. The hanger 10 includes an engagement portion 19 which is threaded to receive a nut 20 thereon for reasons which are unclear. Perhaps, the nut 20 acts as a lip to retain the wire of a picture hanging from section 19 of the hanger 10. Various terminal endings for the hangers are shown in FIGS. 2 to 4. In this patent, the nut 20 is not used to tighten the hanger 10 against the wall.

U.S. Pat. No. 4,325,528 issued to Martin on Apr. 20, 1982 discloses a bracket which has a pointed end and an elbow, and the installation steps thereof are shown in FIGS. 2 to 4. The bracket appears to be sufficiently fixed in this patent without having to be engaged by a distinct component in view of its portion 2 abutting the wall W.

U.S. Pat. No. 4,509,713 issued to Hogg on Apr. 9, 1985, No. 2,789,783 issued to Jones on Apr. 23, 1957 and No. 5,028,030 issued to Lewis on Jul. 2, 1991 are similar in each disclosing a hanger which includes an arcuate section having a pointed distal end which is driven through the wall while rotating the hanger until a flange thereof abuts the inside or front wall with a hook being provided proximally of this flange. In Lewis, there is no flange but the hook acts as both an abutment on the inner surface of the wall as well as a component for hanging pictures.

U.S. Pat. No. 2,408,366 issued to Boyer on Oct. 1, 1946 discloses a toggle bolt consisting of a threaded bolt portion 10 and a L-shaped toggle 16 displaceable relative to the bolt portion 10 between axially and perpendicularly oriented positions, as seen in FIGS. 1 and 2, respectively. The assembly of the bolt portion 10 and the toggle 16 is inserted through an opening 23 defined in an article 22 and the toggle 16 is then rotated to assume its position of FIG. 2. The bolt portion 10 is then held stationary by engaging a screw driver in a slot 24 defined at the proximal end of the bolt portion 10 while a nut 21 is rotated against a concave washer 20 so as to compress a gasket 19. The assembly then becomes firmly secured to the article 22. In FIG. 5, an article 25 is shown held firmly against a supporting wall 26 by way of the general bolt and toggle assembly described hereinbefore. The construction of this toggle bolt results from the assembly of a number of components.

PCT Publication No. WO-00/25030 published on May 4, 2000 in the name of Cobra Fixations Cie Ltée—Cobra Anchors Co. Ltd. discloses a hook (H, H″) and anchor (A, A″) assembly for use with hollow panels (W) such as walls and ceilings made of gypsum. The assembly includes an anchor (A, A″) having first (10, 80/88) and second (12, 90) sections, a hook (H, H″) adapted to be secured to the anchor (A, A″) and to abut a visible surface (O) of the hollow wall (W). The anchor (A, A″) is adapted to be engaged to the hollow wall (W) such that its second section (12, 90) is located behind the wall (W) with the first section (10, 56, 80/88) extending through a hole defined in the wall (W). The hook (H, H″) has a wall-engaging flange (44, 94). The hook (H, H″) and the first section (10, 80/88) of the anchor (A, A″) are provided with adjustable cooperating threads for connecting them together while allowing for various relative positions therebetween, whereby the distance between the second section (12, 90) and the wall engaging flange (44, 94) may be varied such that the second section (12, 90) and the wall engaging flange (44, 94) act as a vice on the wall (W) for tightly installing the anchor (A, A″) and the hook (H, H″) thereon. Also, the anchor (A′) may comprise successive first and second sections (54, 56) having different threads with the first section (54) being adapted to be engaged in a wooden member and with the hook being adapted to be engaged to the second section (56) such as to abut the wooden member.

In spite of these various devices, there remains a need for a wall-mounted anchor of the type described hereinafter.

SUMMARY OF THE INVENTION

It is therefore an aim of the present invention to provide a novel wall-mounted anchor for hollow walls.

Therefore, in accordance with the present invention, there is provided an anchor assembly for use with hollow panels, comprising a holding member and an anchor, the anchor being adapted to penetrate a hollow panel and, once the anchor assembly has been installed to the hollow panel, to be secured thereto while the holding member, which is joined to the anchor, is located on a visible side of the hollow panel, the anchor includes a first and a second portion, the first portion, when the anchor assembly is installed to the hollow panel, extending through a hole defined in the panel while the second portion is located behind the panel, an elbow portion being provided on the anchor between the first and second portions for allowing the anchor to be pivoted when being installed in the panel from a first position where the second portion is inserted though the panel to form the hole therein and a second position where the second portion extends behind.

Other objects, advantages and features of the present invention will become more apparent upon reading of the following non-restrictive description of embodiments thereof, given by way of example only with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Reference will now be made to the accompanying drawings, showing by way of illustration an illustrative embodiment of the present invention, and in which:

FIG. 1 is a front elevation view of a wall anchor assembly in accordance with an embodiment of the present invention;

FIG. 2 is a right side elevation view of the wall anchor assembly of FIG. 1;

FIGS. 3 to 6 are successive partly cross-sectional side elevation views showing the installation of the wall anchor assembly of FIGS. 1 and 2 into a wall; and

FIG. 7 is a perspective view of the wall anchor assembly of FIG. 1.

DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS OF THE INVENTION

Turning to the figures of the appended drawings, a wall anchor assembly A according to an embodiment of the present invention will be described.

FIGS. 1, 2 and 7 illustrate the anchor assembly A in isolation. The anchor assembly A is adapted to be mounted in a vice-like fashion to a hollow wall W, such as will be described hereinbelow with reference to FIGS. 3 to 6. The wall W is typically a hollow wall, such as a wallboard, that is a thick gypsum layer coated on each side thereof with a paper layer.

The anchor assembly A includes a hook 10 and an anchor 12, which are herein made of unitary construction, for instance via a molding process. The hook 10 herein remains visible after the anchor assembly A has been mounted to the wall W, typically abutting a visible surface V of the hollow wall W. It is understood that the hook 10 can be replaced by other suitable components depending on the intended use of the anchor assembly A.

The anchor 12 has a general elbowed configuration and, more particularly, comprises a head portion 14 (first portion) adapted to extend through a hole O defined in the wall W and a vice portion 16 (second portion) extending substantially at right angles from the head portion 14 as a result of an elbow portion 17 being mergingly provided therebetween. The anchor 12 is adapted to be engaged to the hollow wall W such that the vice portion 16 is located behind the wall W and abuts a hidden surface H of the wall W, with the head portion 14 extending through the hole O defined in the wall W, this hole O being formed during the installation of the anchor assembly A.

The distance between a rear surface 18 of the hook 10 and the vice portion 16 of the anchor 12 substantially corresponds to a thickness of the wall W (i.e. the distance between the visible and hidden surfaces V and H of the wall W), such as to act as a vice on the wall W for tightly installing the anchor assembly A thereto.

The hook 10 includes a hook member 20, and is also provided with a spike 22 that extends rearwardly from the rear surface 20 thereof for engagement into the wall W (see FIG. 6), as will be described in more details hereinbelow.

The head portion 14 of the anchor 12 includes a pair of lateral fins 24 that extend outwardly from opposite sides of the head portion 14. The head portion 14 also defines a pair of depressions 36 on opposite sides thereof and adjacent to the fins 24.

The vice portion 16 includes a pointed distal end 26 having a conical shape and being typically provided on an outer surface thereof with a male thread 28. The vice portion 16 also includes a generally cylindrical section 32. The pointed distal end 26 and the cylindrical section 32 define a channel 30.

The pointed distal end 26 is used to perforate the gypsum wall by manual rotation of the anchor assembly A with the male thread 28 providing assistance for gradually introducing again by rotation, the distal end 26 in the wall W until the distal end 26 has extended through the wall W. The configuration of the distal end 26 renders easy and substantially effortless the introduction of the vice portion 16 in and through the wall W.

The distal end 26 defines a leading cutting edge 34 which easily cuts through the paper and the gypsum layers of the hollow wall W and which directs debris from the wall W into the channel 30. Indeed, the channel 30 collects the gypsum wall debris instead of forcing these debris outwardly of the vice portion 16.

The elbow portion 17 of the anchor 12 causes the latter to deviate sideways with respect to an axis of the head portion 14 such that the vice portion 16 ends up extending substantially parallel to the wall W and is in position to abut the hidden surface H of the wall W, in vice-like fashion, when the anchor assembly A is installed in the wall W.

The anchor 12 also includes an outwardly directed vertical fin 38 located on the inside of the elbow portion 17 and connected to both the head and vice portions 14 and 16. The anchor 12 further defines a cam surface 40 that will be explained in detail hereinbelow.

FIGS. 3 to 6 show the installation of the anchor assembly A in the wall W. In FIG. 3, the anchor assembly A is rotated, as per arrow 42, in engagement with and into the wall W such that the vice portion 16 defines the hole O in the wall, as seen in FIG. 4. The anchor assembly A is then rotated along arrow 44, as shown in FIG. 5 wherein the elbow portion 17 is engaged in the hole O. FIG. 6 illustrates the final position of the anchor assembly A in the wall W.

During the installation, the distal end 26 of the anchor 12 forms the hole O, i.e. a calibrated hole, for the anchor assembly A to be inserted and secured into position.

The clearing channel 30 will guide the displaced friable material (plaster) from the wall W out of the hole O, during the drilling process.

The <<L>> shape of the anchor 12 is designed such that it will locate behind the friable material (drywall), i.e. the wall W, and maximize the bearing surface to increase the load capacity.

The cam surface 40 is designed such that during the rotational movement of the anchor assembly A and insertion in the drilled hole O, it will raise the anchor assembly A (see FIG. 5) and position the anchor assembly A such that it will cover completely the drilled hole O and will fill the drilled hole O in order to use the entire surface of the hole O as a bearing surface when load is applied on the anchor assembly A, typically via the hook 10 thereof.

The reinforcement or vertical fin 38 increases the strength of the anchor assembly A and will locate and embed into the drywall W when the anchor assembly A reaches its final installation position (see FIG. 6). This will prevent rotational movement of the anchor assembly A, with respect to the wall W, once installed and loaded.

The two lateral fins 24 are adapted to increase the holding resistance of the anchor assembly A in the drywall W, in that they increase the load surfaces bearing on the drywall material when weight is applied on the hook 10 and produces downward forces on the anchor 12 and the head portion 14 thereof located in the wall W.

The positioning and stabilizing spike 22, once the anchor assembly A has been inserted into the drilled hole O, positions and secures the anchor assembly A in the rotational axes, in addition to adding strength and grip to the anchor assembly A.

The anchor 12 is designed to allow for it to be pivoted from its positions in FIG. 4 to FIG. 6, once the distal end 26 has defined the hole in the wall W and has completely passed therethrough, from a position where the vice portion 16 is co-axial with an axis of the hole O defined in the wall W (FIG. 4) to the vice position of the vice portion 16 shown in FIG. 6. The anchor 12 is designed to prevent damage to the hole O defined in the wall W when the anchor 12 is pivoted therein, and until the head portion 14 has been translationally fitted into the hole O. The head portion 14 can slightly taper from the hook 10 towards the elbow portion 17 for fitting tightly in the hole O in the wall W.

As previously mentioned, the hook 10 can take various forms of holding members, including forms other than that of a “hook” per se, such as holding systems of all kinds, e.g. for securing towel racks, plant holders, mirrors, shelving, etc.

Although the present invention has been described hereinabove by way of embodiments thereof, it may be modified, without departing from the nature and teachings of the subject invention as described herein. 

1. An anchor assembly for use with hollow panels, comprising a holding member and an anchor, the anchor being adapted to penetrate a hollow panel and, once the anchor assembly has been installed to the hollow panel, to be secured thereto while the holding member which is joined to the anchor, is located on a visible side of the hollow panel, the anchor includes a first and a second portion, the first portion, when the anchor assembly is installed to the hollow panel, extending through a hole defined in the panel while the second portion is located behind the panel, an elbow portion being provided on the anchor between the first and second portions for allowing the anchor to be pivoted when being installed in the panel from a first position where the second portion is inserted though the panel to form the hole therein and a second position where the second portion extends behind the panel and in abutment therewith and the first portion is lodged in the hole.
 2. The anchor assembly according to claim 1, wherein the holding member and the anchor are of unitary construction.
 3. The anchor assembly according to claim 1 wherein the holding member includes a hook for suspending items therefrom.
 4. The anchor assembly according to claim 1, wherein, when the anchor is installed in the panel, an inside of the elbow portion abuts the panel.
 5. The anchor assembly according to claim 1, wherein the holding member abuts a visible surface of the hollow panel when the anchor is installed in the panel.
 6. The anchor assembly according to claim 1, wherein the anchor extends rearwardly from an upper end of the holding member, the holding member including a spike extending rearwardly from a lower end thereof, the spike being adapted to penetrate the panel and, when the anchor is installed in the panel to be lodged therein.
 7. The anchor assembly according to claim 6, wherein the spike extends substantially horizontally.
 8. The anchor assembly according to claim 6, wherein the spike slightly curves upwardly in an orientation that substantially follows the pivot of the holding member when the anchor is pivoted from said first position to said second position.
 9. The anchor assembly according to claim 1, wherein the second portion of the anchor includes a pointed distal end adapted to penetrate the panel.
 10. The anchor assembly according to claim 9, wherein the pointed distal end includes an outer male thread that is used to engage and penetrate the panel as the anchor assembly is rotated about an axis of the second portion towards and into the panel.
 11. The anchor assembly according to claim 9, wherein a channel is defined in the second portion for receiving panel material when the second portion is rotatably inserted into and through the panel.
 12. The anchor assembly according to claim 11, wherein the channel is defined in the distal end and proximally therefrom in the second portion.
 13. The anchor assembly according to claim 1, wherein the second portion includes a distal end adapted to engage and penetrate the panel, and further includes a substantially cylindrical portion located between the distal end and the elbow portion.
 14. The anchor assembly according to claim 13, wherein the substantially cylindrical portion has transverse dimensions that are less than that of the distal end.
 15. The anchor assembly according to claim 14, wherein the substantially cylindrical portion substantially merges with a similar substantially cylindrical portion provided on the elbow portion at a junction thereof with the second portion.
 16. The anchor assembly according to claim 15, wherein proximally of the substantially cylindrical portion provided on the elbow portion, the elbow portion is slightly narrower to facilitate the passing of the anchor in the hole as it is pivoted from said first to the second position.
 17. The anchor assembly according to claim 1 wherein the anchor defines a cam surface to facilitate the passing of the anchor in the hole as it is pivoted from said first to the second position.
 18. The anchor assembly according to claim 17, wherein the cam surface is provided substantially along an outside surface of the elbow portion.
 19. The anchor assembly according to claim 1, wherein a substantially vertical fin is provided on an inside of the elbow portion, the vertical fin, when the anchor is installed in the panel, penetrating the panel on a side thereof opposite the holding member.
 20. The anchor assembly according to claim 19 wherein the vertical fin defines a free cutting edge for facilitating the engagement thereof in the panel.
 21. The anchor assembly according to claim 11, wherein a cutting edge is defined on the distal end at the channel for facilitating the engagement of the distal end in the panel when the anchor is initially rotated into the panel.
 22. The anchor assembly according to claim 1, wherein at least one load-bearing member is provided externally of the first portion of the anchor, the load-bearing member, when the anchor is installed in the panel, being lodged in the panel and is adapted thereat to provide a bearing surface on the panel material, in addition to that provided by the first portion, against forces applied on the holding member.
 23. The anchor assembly according to claim 22, wherein the load-bearing member includes a pair of lateral fins extending, when the anchor is installed in the panel, substantially horizontally on opposite sides of the first portion.
 24. The anchor assembly according to claim 22, wherein each load-bearing member is located substantially at a lower end of the first portion.
 25. The anchor assembly according to claim 22 wherein each load-bearing member has a shape that tapers from the holding member towards the elbow portion.
 26. The anchor assembly according to claim 22, wherein each load-bearing member is connected at a proximal end thereof to the holding member.
 27. The anchor assembly according to claim 24, wherein each load-bearing member, located substantially at a lower end of the first portion, provides a continuous and substantially horizontal surface resting on the panel material when the anchor is installed in the panel.
 28. The anchor assembly according to claim 19, wherein the substantially vertical fin is adapted to prevent rotation of the anchor assembly when the anchor is installed in the panel.
 29. The anchor assembly according to claim 19, wherein the substantially vertical fin is adapted to provide reinforcement to the anchor.
 30. The anchor assembly according to claim 9, wherein the distal end of the second portion is adapted to define a calibrated hole through the panel such that the first portion is snugly received in the hole once the anchor is installed in the panel.
 31. The anchor assembly according to claim 17, wherein the cam surface is adapted such that, during the insertion of the anchor through the panel it raises and positions the anchor such that it covers completely the hole in the panel and fills the hole thereby using substantially all of the available surface of the hole as a bearing surface when load is applied on the holding member. 